A data-driven fault diagnosis approach towards oil retention in vapour compression refrigeration systems

In vapour compression refrigeration systems, oil circulates to lubricate moving parts. However, due to its low miscibility with most environmentally friendly refrigerants, such as ammonia, it is retained in some parts of the system causing losses in the overall system efficiency. Therefore, this pap...

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Bibliographic Details
Published in2019 International IEEE Conference and Workshop in Óbuda on Electrical and Power Engineering (CANDO-EPE) pp. 197 - 202
Main Authors van de Sand, Ron, Falk, Constantin, Corasaniti, Sandra, Reiff-Stephan, Jorg
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.11.2019
Subjects
Classification algorithms
Conferences
data-driven intelligence
Fault detection
fault diagnoses
Fault diagnosis
Oils
Power engineering
predictive maintenance
refrigeration
Test facilities
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Summary:In vapour compression refrigeration systems, oil circulates to lubricate moving parts. However, due to its low miscibility with most environmentally friendly refrigerants, such as ammonia, it is retained in some parts of the system causing losses in the overall system efficiency. Therefore, this paper focusses on the investigation of the fault characteristics of oil-retention by simulating this fault using a test facility. Based on the obtained dataset, a data-driven fault diagnosis approach is derived. Furthermore, a genetic algorithm is used for the selection of characteristic features, which are finally defined as input parameters for an exemplary implemented classification algorithm. It is also demonstrated how this classification algorithm correctly distinguishes multiple system states from one another.
DOI:10.1109/CANDO-EPE47959.2019.9111046